youlong xia 1 , michael b. ek 1 , christa d. peters-lidard 2 , david mocko 2 , justin sheffield 3...
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Application of USDM Statistics in NLDAS-2: Objective Blends of Ensemble-Mean NLDAS Drought Indices over the Continental United States. Youlong Xia 1 , Michael B. Ek 1 , Christa D. Peters-Lidard 2 , David Mocko 2 , Justin Sheffield 3 , and Eric F. Wood 3. - PowerPoint PPT PresentationTRANSCRIPT
Youlong Xia1, Michael B. Ek1, Christa D. Peters-Lidard2, David Mocko2, Justin Sheffield3, and Eric F. Wood3
1Environmental Modeling Center (EMC), National Centers for Environmental Prediction, College Park, MD
2Hydorlogical Sciences Laboratory, NASA/GSFC, Greenbelt, MD1Department of Civil and Engineering, Princeton University,
Princeton, NJ
Application of USDM Statistics in NLDAS-2:
Objective Blends of Ensemble-Mean NLDAS Drought Indices over the Continental United States
CTB Seminar Series NCWCP, College Park, 24 April 2013
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OUTLINE
1. NLDAS Drought Monitor, US Drought Monitor (USDM), and CPC Experimental Objective Blends 2. Development of an Objectively Blending Approach
3. Experiment of Ensemble Mean NLDAS Drought Indices
4. Evaluation of Blended NLDAS Drought Index
5. Future Work and Summary
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NLDAS Drought Monitor
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Acknowledgments:
NLDAS project was supported by NOAA/OGP GAPP Program, NASA Terrestrial Hydrology Program, NOAA/CPO CPPA Program (Climate Program of the Americas), and NOAA/CPO MAPP Program (Modeling, Analysis, Predictions and Projections).
NLDAS Collaboration PartnersNLDAS Development
NCEP/EMC: Michael Ek, Youlong Xia, Jiarui Dong, Jesse Meng, Helin Wei
Princeton University: Eric Wood, Justin Sheffield, Ming Pan
NASA/GSFC: Christa Peters-Lidard, David Mocko, Sujay Kumar
NWS/OHD: Victor Koren, Brian Cosgrove
University of Washington: Dennis Lettenmaier, Ben Livneh
NLDAS Products ApplicationNCEP/CPC: Kingtse Mo, Li-Chuan Chen
USDA: Eric Luebhusen, U.S. Drought Monitor Author Group
NASA/GSFC: Data distribution group - Hualan Rui, Guang-Di LouNCEP/EMC: Youlong Xia, Michael Ek
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NLDAS Input Data SupportNCEP/CPC: Ming-Yue Chen, Wesley Ebisuzaki
www.emc.ncep.noaa.gov/mmb/nldas
NLDASDrought Monitor
Anomaly and percentile for six variables and three time scales:• Soil moisture, snow water, runoff, streamflow, evaporation, precipitation• Current, Weekly, Monthly
NCEP/EMC NLDAS website
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Ensemble-Mean total runoff, top 1m and total column soil moisture percentiles for three time scales are directly
provided to USDM author group through a daily Cron job
US Drought Monitor and its Statistics
Percentile
Drought area percentage for US, each USDM
region, each state, and each county
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Drought Classification
(1)
(2)
(3)
(4)
PercentileD4 D3 D2 D1 D0
USDM Statistics (CONUS, Region, State)
Six Rrgions:
High PlainsMidwestNortheastSouthSoutheastWest
http://droughtmonitor.unl.edu/archive.html
http://www.cpc.ncep.noaa.gov/products/predictions/tools/edb/droughtblends.php
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CPC Experimental Objective Blends (Empirical Weights)
Weights and Indices
CPC Experimental Objective Blends (Empirical Weights)
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Weights and Indices
2. Development of an Objectively Blending Approach
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Acknowledgments:
NLDAS project was supported by NOAA/OGP GAPP Program, NASA Terrestrial Hydrology Program, NOAA/CPO CPPA Program (Climate Program of the Americas), and NOAA/CPO MAPP Program (Modeling, Analysis, Predictions and Projections).
Objectively Select Optimal Weights to Blend Drought Indices
USDM and CPC experimental blends provide the basis to allow us to develop an approach:
Objectively Blending Approach
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Hypothesis: USDM is assumed as “Ground Truth”
Weekly drought area percentages for 5 categories were downloaded from USDM website (Archive)
for CONUS, six USDM regions, and 48 StatesMonthly drought area percentages were calculated using
number of days as the weights
Monthly drought area percentages were calculated using a blended NLDAS ensemble mean percentile (w1I1+w2I2+w3I3 ……) , mask file (i.e., CONUS, Region, State), and USDM
drought classification criteriaError Function = RMSE(USDM-NLDAS Blended)
Select Weight w1, w2, w3, … via minimize Error Functionusing an optimization approach
Objectively Blending Approach
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1000 iterations to converge
Use USDM as the ground “truth”
3. Experiment of Ensemble Mean NLDAS Drought Indices
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Ensemble-mean Monthly Percentile(NLDAS drought Indices) Top 1m soil moisture (SM1)Total column soil moisture (SMT)Evapotranspiration (ET)Total runoff (Q)
To support CPC Experimental Objective Blends of Drought Indicators http://www.cpc.ncep.noaa.gov/products/predictions/tools/edb/droughtblends.php
Experiment Setup
Three Tests: CONUS, Region (6 USDM regions), State (48 states)
Two periods:Training period (240 months from 2000 to 2009)Validation period (24 months from 2010 to 2011)
NLDAS-2 products were routinely used by USDM author group from January 2010
Very Fast Simulated Annealing Approach was used to search for optimal weights in this study
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Error (cost) function E can be expressed as Root Mean Square Error between drought area percentage calculated from NLDAS and derived from USDM:
Experiment Setup
Experiment is run for CONUS, each of six regions, and each of forty-eight states separately. Total 1000 runs are needed to achieve to converge a global minima for each run. Total 55,000 runs are executed. This process will search for optimal weight coefficients for each state and variable. The weight coefficients searched from this process will be shown in next slide.
Objective Blended NLDAS drought Index (OBNDI) is expressed asOBNDI = W1SM1 + W2SMT+ W3ET +W4Q
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Calculat
e
NLDAS drought area percentage
USDM drought area percentage
(1) (2)
(3)
U.S./Region W1 W2 W3 W4 CostCONUS 0.6253 0.0253 0.0033 0.0001 0.0488West 0.1083 0.3935 0.0000 0.0000 0.1674High Plains 0.1940 0.2816 0.0000 0.0002 0.1380South 0.2438 0.3585 0.0502 0.0000 0.0900Midwest 0.7551 0.0757 0.0433 0.0175 0.0542Southeast 0.1706 0.1490 0.0001 0.3115 0.1622Northeast 0.6651 0.2571 0.0478 0.0027 0.0649
Table 1: Optimal weight coefficients for CONUS and Region experiment (maximum in bold)
(Optimal Blended drought index = W1SM1 + W2SMT + W3ET + W4Q)
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Normalized weight coefficients for NLDAS ensemble-mean monthly top 1m soil moisture (SM1), total column soil moisture (SMT), evapotranspiration (ET), and total runoff (Q) percentiles – Objective Blended NLDAS drought Index (OBNDI)
Cropland (1m root zone)
Shrub land, Woodland, Grasslands(2m root zone)N
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AS
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ight
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State depended
Evaluation of Blended NLDAS Drought Index
Acknowledgment : This work is supported by MAPP and CTB
Evaluation Metrics:
Cumulative Density Function (CDF), Root Mean Square Error (RMSE), Bias, Correlation Coefficient (R), Nash-Sutcliffe Efficiency (NSE)
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Cumulative Density Function of R and RMSE for 48 StatesTraining Period 2000-2009
upper line means better performance (larger R, smaller RMSE)
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Cumulative Density Function (CDF) of R and RMSE for 48 StatesValidation Period 2010-2011
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Region and State performs better than CONUS
State performs slightly better than Region
State experiment will be discussed for following slides
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Number of categories with significant correlation at the 95% confidence level for training (top) and validation (bottom) period
Spatial distribution of STATE’s capacity (correlation)
In South, Southeast, and Midwest, STATE performs well
2009
Mo et al., 2012Number of gauge stations has been
largely reduced since 2002
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Nah-Sutcliffe Efficiency (NSE) over Continental United States
Training Period Validation Period
where A is modeled drought area percentage, and O is USDM drought area percentage.
NSE = 0.0Modeled is as same accurate as mean of USDM drought area percentage
NSE > 0.0Modeled is better than the mean (>0.4 skillful)
NSE<0.0 Modeled is worse than the mean
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As drought severity is increased
Performance is decreased
Comparison of USDM and NLDAS drought area percentage in nine states for D1-D4 (from moderate drought to
exceptional drought) category and 2000-2009 (training period)
23/37________ USDM ------------- NLDAS/State
USDM is used as the ground “Truth”
Comparison of USDM and NLDAS drought area percentage in nine states for D1-D4 category
2010-2011 (validation period)
24/37________ USDM ------------- NLDAS/State
Southeast and Northeast
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Overall performance of State is good except for a few cases
________ USDM ------------- NLDAS/State
The reason needs to be indentified in future
Midwest Region
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Low skillOverall performance of State is good for some states in this region
________ USDM ------------- NLDAS/State
West Region
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Performance of State is worse than the other regions and need to be improved in future
________ USDM ------------- NLDAS/State
Evaluation of Optimally Blended NLDAS Drought Index (State) in Texas
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5 Drought Categories: D0-D4, D1-D4, D2-D4,D3-D4, D4-D4
Xia et al. (2013d), in preparation 2011 Texas Drought
For severe drought (D2 or above), the blend underestimates USDM
Comparison of USDM and NLDAS at three states2000-2011 for five drought categories
in Iowa, Illinois, Indiana
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USDM drought area variation NLDAS drought area variation
Comparison of USDM and NLDAS shows good performance for NLDAS blends
2011-2012 Drought Variation: Monthly Animation
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Comparison of Optimally Blended
NLDAS Drought Index and USDM
2011
USDM
NLDAS
30-year (1980-2009) monthly drought area percentage reconstruction
Texas
Kansas
Kentucky
Xia et al. (20113d), in preparation
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GRACE-based ground water storage
Monthly anomaly correlationNLDAS has poor streamflow simulation
in circled area
Land Information System (LIS) developed by NASA
ESI-Evaporative Stress IndexVegDRI – Vegetation Drought Index
SPI – Standard Precipitation indexPDI – Palmer Drought Index
PDSI – Palmer Drought Severity Index
Gauges reduced from 2002
SCAN soil moisture is assimilated to NLDAS-2 (NASA LIS-NLDAS)(from Christa Peters-Lidard’s AMS talk 2013)
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some improvementsin circled area
Some Preliminary Thoughts
1. Can we explore this work to CPC experimental objective blends?
2. Can we reconstruct long-term drought area percentage using long-term CPC operational drought indices (from 1900 –present) if we can use this framework?
3. Should we use this framework for long-term drought and short-term drought separately as done in CPC? If so, can USDM provide drought area percentage statistics separately for short-term and long-term drought as the indices controlling these two drought types may be different?
4. How to collaborate with research community to explore the possibility of objectively blending drought indices based on current USDM statistics, experiences, and expertise?
5. How to select drought indices according to data accuracy and reliability? drought type - meteorological, hydrologic, and agricultural. Short-term and long-term. Data source – observed (low spatial resolution, long-term data), remotely-sensed (high spatial resolution, short-term data), and modeled (from low to high resolution, from short-term to long-term data)
6. More research is needed ……
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1. NLDAS blend can basically capture USDM drought area percentage for 16-24 states for category D0-D4, and D1-D4, in particular for the training period.
2. Most reliable states are located in the Midwest, South and Southeast region, and the results for West region and Northeast should be cautiously used as blend shows low simulation skills, in particular for validation period and D3-D4 and D4-D4 category. For very severe drought, blend shows low skills as we have a small-size sample only.
3. Texas, as the most reliable state, blend has the best performance and simulation skills for both training and validation period and for all five drought categories.
4. In spite of existing weakness, drought index reconstruction can be executed in the continental United States. The reconstructed drought index is reproducible (repeatable).
5. The framework still have big room to improve through adding more drought indices from observations (e.g., streamflow), remote sensing, and CPC operational drought indices . USDM county-scale statistics will be tested as high-resolution (4km) NLDAS will become EMC quasi-operational products in near future.
Summary of Objective Blends of Multiple NLDAS Drought Indices
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References for NLDAS-2
Ek, M.B., Y. Xia, E.F. Wood, J. Sheffield, L. Luo, D. Lettemaier, and NLDAS team, 2011: North American Land Data Assimilation Phase 2 (NLDAS-2): Development and Applications, GEWEX news, 21, 6-7. Xia, Y., B. Cosgrove, M. B. Ek, J. Sheffield, L. Luo, E. F. Wood, K. Mo, and NLDAS team, 2013a: Overview of North American Land Data Assimilation System, chapter 11 in Land Surface Observation, Modeling and Data Assimilation, edited by Shunlin Liang et al., World Scientific, 335-376pp.
Xia, Y., M.B. Ek, J. Sheffield, B. Livneh, M. Huang, H. Wei, S. Feng, L. Luo, J. Meng, and E. Wood, 2013b: Validation of Noah- simulated soil temperature in the North American Land Data Assimilation System Phase 2. J. Appl. Meteor. Climatol. 52, 455-471.
Xia, Y., K.E. Mitchell, M.B. Ek, J. Sheffield, B. Cosgrove, and NLDAS team, 2012a: Continental-scale water and energy flux analysis and validation for the North American Land Data Assimilation System project phase 2 (NLDAS-2): 1. Intercomparison and application of model products, J. Geophys. Res., 117, D03109, doi:10.1029/2011JD016048. Xia, Y., K.E. Mitchell, M.B. Ek, B. Cosgrove, J. Sheffield, and NLDAS team, 2012b: Continental-scale water and energy flux analysis and validation for North American Land Data Assimilation System project phase 2 (NLDAS-2): 2. Validation of model-simulated streamflow, J. Geophys. Res., 117, D03110, doi:10.1029/2011JD016051.
Xia, Y., J. Sheffield, M. B. Ek, J. Dong, N. Chaney, H. Wei, J. Meng, and E. F. Wood, 2013c, Evaluation of multi-model simulated soil moisture in NLDAS-2, J. Hydrology (in revision).
Xia, Y., M.B. Ek, C. Peters-Lidard, D. Mocko, J. Sheffield, and E.F. Wood, 2013d: Application of USDM statistics in NLDAS-2: objectively blended NLDAS drought Index over the continental United States, J. Geophys. Res. (in preparation).
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References for VFSAXia, Y., 2007: Calibration of LaD model in the Northeast United States using observed annual streamflow. J. Hydrometeor., 8, 1098-1110.Xia,Y., 2008:Adjustment of global precipitation data for orographic effects using observed annual streamflow and the LaD model, J. Geophys. Res., 113, D04106, doi:10.1029/2007JD008545.
Comments and Suggestions to the following scientists: EMC LDAS General (NLDAS, HRAP-NLDAS, GLDAS):
NLDAS EMC: [email protected] , NLDAS NASA: [email protected]: [email protected], GLDAS: [email protected]
NOAA NLDAS Websitehttp://www.emc.ncep.noaa.gov/mmb/nldas/
NASA NLDAS Websitehttp://ldas.gsfc.nasa.gov/nldas/
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